Green synthesis of a deep-ultraviolet carbonized nanoprobe for ratiometric fluorescent detection of feroxacin and enrofloxacin in food and serum samples

Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and ex...

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Published inAnalyst (London) Vol. 146; no. 3; pp. 874 - 881
Main Authors Wang, Zhong-Xia, Jin, Xing, Wang, Wen-Juan, Kong, Fen-Ying, Zhu, Jing, Li, Heng-Ye, Ding, Yu-Jie, Wang, Wei
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 07.02.2021
Subjects
Antibiotics
Enrofloxacin
Fluorescence
Fluorescent Dyes
Melamine
Milk
Optical properties
Pretreatment
Ultraviolet emission
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Abstract Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and excitation-independent emission of a carbonized nanoprobe (CNP) were easily prepared by an environmentally friendly approach of solvothermal treatment using melamine as the precursor and H 2 O as the solvent. The obtained CNP can be further utilized as an efficient ratiometric FL nanoprobe for enrofloxacin (EFC) and feroxacin (FXC) detection based on the fact that the FL quenching of the CNP was accompanied by an FL increase with EFC/FXC based on the inner filter effect (IFE). Under the optimal conditions, excellent linear relationships existed between the relative FL intensity (FL 290 nm /FL 412 nm , CNP for FL 290 nm and antibiotics for FL 412 nm ) and the concentrations of FXC and EFC in the range of 0.05-500.0 μM and 0.05-200.0 μM, with limits of detection of 21.74 and 22.43 nM (3 σ / k ), respectively. With the proposed ratiometric FL sensor, FXC and EFC in milk and serum samples can be rapidly and selectively analyzed without tedious pretreatment processes for real-world samples. A sensitive ratiometric fluorescent probe for EFC and FXC detection in milk and bovine serum samples based on the internal filtration effect.
AbstractList Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and excitation-independent emission of a carbonized nanoprobe (CNP) were easily prepared by an environmentally friendly approach of solvothermal treatment using melamine as the precursor and H 2 O as the solvent. The obtained CNP can be further utilized as an efficient ratiometric FL nanoprobe for enrofloxacin (EFC) and feroxacin (FXC) detection based on the fact that the FL quenching of the CNP was accompanied by an FL increase with EFC/FXC based on the inner filter effect (IFE). Under the optimal conditions, excellent linear relationships existed between the relative FL intensity (FL 290 nm /FL 412 nm , CNP for FL 290 nm and antibiotics for FL 412 nm ) and the concentrations of FXC and EFC in the range of 0.05–500.0 μM and 0.05–200.0 μM, with limits of detection of 21.74 and 22.43 nM (3 σ / k ), respectively. With the proposed ratiometric FL sensor, FXC and EFC in milk and serum samples can be rapidly and selectively analyzed without tedious pretreatment processes for real-world samples.
Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and excitation-independent emission of a carbonized nanoprobe (CNP) were easily prepared by an environmentally friendly approach of solvothermal treatment using melamine as the precursor and H2O as the solvent. The obtained CNP can be further utilized as an efficient ratiometric FL nanoprobe for enrofloxacin (EFC) and feroxacin (FXC) detection based on the fact that the FL quenching of the CNP was accompanied by an FL increase with EFC/FXC based on the inner filter effect (IFE). Under the optimal conditions, excellent linear relationships existed between the relative FL intensity (FL290 nm/FL412 nm, CNP for FL290 nm and antibiotics for FL412 nm) and the concentrations of FXC and EFC in the range of 0.05–500.0 μM and 0.05–200.0 μM, with limits of detection of 21.74 and 22.43 nM (3σ/k), respectively. With the proposed ratiometric FL sensor, FXC and EFC in milk and serum samples can be rapidly and selectively analyzed without tedious pretreatment processes for real-world samples.
Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and excitation-independent emission of a carbonized nanoprobe (CNP) were easily prepared by an environmentally friendly approach of solvothermal treatment using melamine as the precursor and H 2 O as the solvent. The obtained CNP can be further utilized as an efficient ratiometric FL nanoprobe for enrofloxacin (EFC) and feroxacin (FXC) detection based on the fact that the FL quenching of the CNP was accompanied by an FL increase with EFC/FXC based on the inner filter effect (IFE). Under the optimal conditions, excellent linear relationships existed between the relative FL intensity (FL 290 nm /FL 412 nm , CNP for FL 290 nm and antibiotics for FL 412 nm ) and the concentrations of FXC and EFC in the range of 0.05-500.0 μM and 0.05-200.0 μM, with limits of detection of 21.74 and 22.43 nM (3 σ / k ), respectively. With the proposed ratiometric FL sensor, FXC and EFC in milk and serum samples can be rapidly and selectively analyzed without tedious pretreatment processes for real-world samples. A sensitive ratiometric fluorescent probe for EFC and FXC detection in milk and bovine serum samples based on the internal filtration effect.
Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more attention. In this article, the distinctive optical properties of deep-ultraviolet emission, a narrowed full width at half maximum (∼20 nm) and excitation-independent emission of a carbonized nanoprobe (CNP) were easily prepared by an environmentally friendly approach of solvothermal treatment using melamine as the precursor and H O as the solvent. The obtained CNP can be further utilized as an efficient ratiometric FL nanoprobe for enrofloxacin (EFC) and feroxacin (FXC) detection based on the fact that the FL quenching of the CNP was accompanied by an FL increase with EFC/FXC based on the inner filter effect (IFE). Under the optimal conditions, excellent linear relationships existed between the relative FL intensity (FL /FL , CNP for FL and antibiotics for FL ) and the concentrations of FXC and EFC in the range of 0.05-500.0 μM and 0.05-200.0 μM, with limits of detection of 21.74 and 22.43 nM (3σ/k), respectively. With the proposed ratiometric FL sensor, FXC and EFC in milk and serum samples can be rapidly and selectively analyzed without tedious pretreatment processes for real-world samples.
Author Ding, Yu-Jie
Wang, Wei
Wang, Wen-Juan
Wang, Zhong-Xia
Li, Heng-Ye
Kong, Fen-Ying
Zhu, Jing
Jin, Xing
AuthorAffiliation Anhui Polytechnic University
College of Biochemical Engineering
Yancheng Institute of Technology
School of Chemistry and Chemical Engineering
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Snippet Recently, the development of a novel fluorescent (FL) nanoprobe for ratiometric detection of antibiotics in real-world samples has received more and more...
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SubjectTerms Antibiotics
Enrofloxacin
Fluorescence
Fluorescent Dyes
Melamine
Milk
Optical properties
Pretreatment
Ultraviolet emission
Title Green synthesis of a deep-ultraviolet carbonized nanoprobe for ratiometric fluorescent detection of feroxacin and enrofloxacin in food and serum samples
URI https://www.ncbi.nlm.nih.gov/pubmed/33241796
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